Gram+ Cocci

Question 1

what are the 3 major genera of Gram+ Cocci?

Answer 1

1. staphylococci
2. streptococci
3. enterococci

Question 2

in what formation (clusters or chains) do staphylococci and streptococci grow in, respectively, and why is this?

Answer 2

staphylococci: clusters, because they divide in random planes

streptococci: chains, because they divide in a single plane (same direction)

both appear blue/purple, because they are Gram+

Question 3

what kind of bacteria family does this describe?
- Gram+ cocci
- grow in clusters
- resistant to heat and drying, persist on fomites
- normal skin or nasal flora
- common wound and nosocomial infections

Answer 3

staphylocci

*note that fomites are simply objects or materials that can carry infection

Question 4

which of these is Catalase positive, streptococci or staphylococci?

(remember that these are both families of Gram+ cocci)

Answer 4

all pathogenic STAPHylococci are CATALASE POSITIVE

Question 5

how are staphylococci divided?

(2 categories, hint - a major and then sort of everything else)

Answer 5

1. coagulase positive: Staph. aureus
2. coagulase negative (CoNS/CNS): all other pathogenic strains (S. epidermidis, S. saprophyticus)

*note that coagulase clots plasma

Question 6

what species of bacteria does this describe?
- appear as golden colonies on agar
- coagulase positive
- normal flora of anterior nares (1/3 people)
- considered most common bacterial human pathogen

Answer 6

staphylococcus aureus !

Question 7

describe the function of the following virulence factors of Staph. aureus:
a. Protein A
b. invasins (staphylokinase, collagenase, lipase)
c. cytotoxins (hemolysins, PVL/Leukocidin)
d. superantigen exotoxins (TSST-1, enterotoxin, exfoliatin)

Answer 7

a. Protein A: binds Fc portion of antibodies, escapes immune response (Fc receptors on phagocytes cannot bind)
b. invasins: for invading deep tissue
c. cytotoxins: lyse human cells
d. superantigen exotoxins: cause polyclonal T cell activation (lots of cytokines released, inflammation)

Question 8

this surface protein of Staph. aureus binds the Fc portion of antibodies to evade the immune system. what is?

Answer 8

Protein A: anti-opsonization effect

*remember that Fc receptors are present on phagocytes, and thus their action will be blocked by Protein A

Question 9

what are 4 important invasins that may be present in Staph. aureus? (Gram+ cocci)

Answer 9

invasins: for invading deep tissue

1. staphylokinase
2. collagenase
3. lipase
4. hyaluronidase

Question 10

what are 2 important cytotoxins that may be present in Staph. aureus? (Gram+ cocci)

Answer 10

cytotoxins: lyse human cells

1. hemolysins: lyse erythrocytes (example: alpha-toxin)
2. PVL (Panton-Valentine Leukocidin): lyse PMNs, produced predominantly by CA-MRSA

*CA-MRSA = community-acquired MRSA

Question 11

what are 3 important cell surface virulence factors of Staph. aureus? (Gram+ cocci)

Answer 11

1. Protein A: anti-opsonin effect by binding Fc portion of antibodies
2. capsule: antiphagocytic polysaccharide
3. adhesins: facilitate attachment to host cells/tissue

Question 12

what are 3 important superantigen toxins that may be present in Staph. aureus? (Gram+ cocci)

Answer 12

superantigen exotoxins: cause non-specific polyclonal T cell activation via cross-linking MHC to TCR

1. TSST-1 (toxic shock syndrome toxin)
2. enterotoxins (food poisoning)
3. exfoliatin (“scalded skin syndrome”)

Question 13

what are the SSTI clinical manifestations of Staph. aureus infection (4)? (Gram+ cocci)

Answer 13

SSTIs: Skin and Soft Tissue Infections; usually require surgical debridement with antibiotics, most common presentation of staphylococcal infections

1. furuncles: small pus-filled local infections
2. carbuncles: larger skin abscesses
3. impetigo: spreading, crusted skin infection
4. cellulitis: deep skin infection

FUR and CARs for UNCLES is IMPEritive to buy with your CELL

Question 14

most common cause of bone infections in children (osteomyelitis)

Answer 14

staph. aureus infection (Gram+ cocci)

S. aureus metastasis of superficial infections may cause:
- osteomyelitis
- septic joint/ septic arthritis (esp. children)
- pneumonia (often follows viral influenza, esp. hospitalized patients)
- endocarditis (associated with IV drug use, rapid onset of vegetation on valve - usually tricsupid)
- bacteremia and septicemia

Question 15

what are the 3 most common toxinoses of staph. aureus infection (Gram+ cocci)?

Answer 15

1. Toxic Shock Syndrome: TSST-1 exotoxin —> high fever, hypotension, rash, multi-organ failure, desquamation (palms, soles)
2. food poisoning (Gastroenteritis): heat stable enterotoxins on food —> acute onset of GI distress
3. Scalded Skin Syndrome (neonates, children): exfoliatin —> red flush, bullae (blisters), bulbous impetigo, desquamation

note that toxinoses may be associated with “negative cultures” because it is released exotoxin causing symptoms

Question 16

what type of bacteria have endotoxins?

Answer 16

Gram- (typically LPS)

[Gram+ have exotoxins]

Question 17

generally speaking, what are the 3 categories of clinical manifestations of Staph. aureus? (Gram+ cocci)

Answer 17

1. SSTIs: skin and soft tissue infections
2. infections of other tissues (osteomyelitis, septic joint, endocarditis, pneumonia, septicemia)
3. toxinoses (superantigens): toxic shock, food poisoning, scalded skin syndrome

Question 18

what kind of drugs are methicillin, oxacillin, and nafcillin?

Answer 18

methicillin, oxacillin, and nafcillin are “anti-staphylococcal penicillins”

contain bulky side groups that prevent binding of penicillinase/ beta-lactamase by staphylococcus

[of course remember that there is now MRSA - methicillin resistant S. aureus]

Question 19

what are the 3 important penicillinase-resistant penicillins, which were developed after almost all clinical strains of staphylococcus developed penicillin resistance (via penicillinase/ beta-lactamase)?

Answer 19

nom nom nom bacteria yum

1. nafcillin
2. oxacillin
3. methicillin (watch out for MRSA!)

[note that MRSA resistance protein PBP2a is encoded by the mec A gene]

Question 20

what confers methicillin resistance in MRSA?

Answer 20

MRSA = methicillin resistant Staph. aureus

PBP2a (penicillin binding protein), encoded by mec A gene

Question 21

HA-MRSA vs CA-MRSA

Answer 21

hospital-acquired MRSA: tend to be resistant to additional antibiotics (tetracycline and clindamycin), but less virulent

community acquired MRSA: susceptible to broader range of antibiotics, but more virulent (PVL/Panton-Valentine Leukocidin gene present)

Question 22

how are we treating Staph. aureus infections these days?

Answer 22

if MSSA (methicillin-sensitive SA) —> treat with oxacillin or nafcillin (methicillin not used clinically anymore)

but… most clinical isolates are MRSA

so…

vancomycin is first line of treatment for MRSA

[note that VISA and VRSA are on the rise]

Question 23

vancomycin is the first line of treatment for _____ infections

Answer 23

MRSA

Question 24

where are the 2 important coagulase negative staphylococci found? (must be able to name them first!)

Answer 24

1. Staph. epidermidis: normal skin flora
2. Staph. saprophyticus: normal vaginal flora

Question 25

which bacteria does this describe?
- produces cell surface polysaccharide “slime” that adheres to bioprosthetics
- frequently involved in nosocomial and opportunistic infections (catheters, medical devices, IV lines)
- most are highly resistant to penicillins and methicillins

Answer 25

staph. epidermis (Gram+ cocci, coagulase negative): major component of normal skin flora, causes wound infections through broken skin, relatively less virulent

Question 26

which bacteria does this describe?
- causes UTI and cystitis in females
- natural resistance to novobiocin
- sensitive to penicillin/oxacillin

Answer 26

Staph. saprophyticus (Gram+ cocci, coagulase negative): normal vaginal flora

Question 27

what kind of infections does Staph. saprophyticus cause, and what distinguishes it from other coagulase negative staphylocci and staph. aureus?

Answer 27

Staph. saprophyticus (Gram+ cocci, coagulase negative): normal vaginal flora

causes UTI and cystitis in females

has natural resistance to novobiocin
(but sensitive to penicillin/oxacillin)

Question 28

how would you treat Staph. epidermidis?

Answer 28

Staph. epidermidis: Gram+ cocci, coagulase negative, normal skin flora

highly resistant to antibiotics —> treat with vancomycin

Question 29

You are culturing 2 unknown bacterias. One one plate, you note golden colonies, which contain cocci in clusters. Further testing reveals they are Gram+, catalase positive, and coagulase positive. (plate 1)

On the other plate, you note cocci in clusters. Further testing reveals they are Gram+, catalase positive, coagulase negative, and novobiocin resistant. (plate 2)

What is the identity of these cultures?

Answer 29

plate 1: Staph. aureus

plate 2: Staph. saprophyticus
(why is it not Staph. epidermidis? because the culture is novobiocin resistant, a unique feature of S. saprophyticus)

Question 30

what family of bacteria does this describe?
- Gram+ cocci arranged in chains or pairs
- catalase negative
- mostly fastidious (require enriched media)
- sensitive to drying and heat
- classified based on hemolysis pattern on blood agar and cell wall antigen

Answer 30

Streptococcus

*note that because they are fastidious, they will not grow well outside the human body (not found on fomites)

Question 31

One way to classify streptococcus is by hemolysis pattern on blood agar. Describe this system of categorization.

Answer 31

beta-hemolysis: complete hemolysis, yellow zone around colony

alpha-hemolysis: partial hemolysis, green/brown zone around colony

gamma-hemolysis: no hemolysis

Question 32

describe how Streptococcus are classified by cell wall antigen

Answer 32

Streptococcus Lancefield Groups: based on antigen cell wall polysaccharide called C-carbohydrate

groups A-U: reaction with specific antisera in slide agglutination assay

Groups A, B, D, and “none” are common human pathogens

*note that Group A is not a group but in fact a strain that has Group A on its surface (and this strain is in fact Strep. pyogenes fyi)

Question 33

what are the important streptococci species to know in the following categories:
a. beta hemolytic (2)
b. alpha hemolytic (2)
c. gamma hemolytic (1)

Answer 33

beta hemolytic:
- Strep. pyogenes / Group A (bacitracin sensitive)
- Strep. agalactiae / Group B (bacitracin resistant)

alpha hemolytic (non-Lancefield):
- Strep. pneumoniae (optochin sensitive)
- Viridins group (optochin resistant)

gamma hemolytic:
- Strep. bovis / Group D

Question 34

which bacteria has the following?
- M protein (virulence factor)
- Streptolysin O and S
- Streptokinase
- pyrogenic exotoxins A, B, C

Answer 34

GAS (Group A Streptococci): aka Strep. pyogenes (Gram+ cocci)

• M protein: highly variable antigenic, essential for infection
• Streptolysin O and S: lyse RBCs (causes beta hemolysis) - measure with ASO titers
• Streptococcal pyrogenic exotoxins (SPE): superantigen toxins

Question 35

what are ASO titers used for?

Answer 35

ASO titers measure antibodies against streptolysin O or S, which cause beta hemolysis (lyse RBC)

released by GAS (Group A Strep), aka Strep. pyogenes (Gram+ cocci)

positive titers indicate recent infection

Question 36

this virulence factor is highly variable antigenic and essential for infection by GAS (Strep. pyogenes, Gram+ cocci). what is?

Answer 36

M protein: fimbrae, antiphagocytic, inhibits complement

Question 37

what are 4 important clinical manifestations of GAS/Strep. pyogenes infection?

Answer 37

1. Streptococcal pharyngitis: “strep throat” - purulent pharynx inflammation, can be associated with scarlet fever
2. Streptococcal skin infections: lymphangitis, erysipelas and cellulitis, necrotizing fasciitis
3. Streptococcal toxic shock syndrome: via SPE superantigens
4. post-infection sequelae of GAS infection: antibody mediated (Rheumatic fever, acute glomerulonephritis)

Question 38

what are possible streptococcal skin infections caused by GAS (Strep. pyogenes)?

(hint - 3, with possible severe 4th)

Answer 38

1. lymphangitis: red streaks stretching from infected area
2. erysipelas and (3.) cellulitis —> can lead to (4.) necrotizing fasciitis

Question 39

what toxin mediates streptococcal toxic shock syndrome caused by GAS (Strep. pyogenes) infection?

Answer 39

SPE: streptococcal pyrogenic exotoxin, acts as superantigen

Question 40

what are the 2 major post-infection sequelae of GAS (Strep. pyogenes) infection?

Answer 40

antibody mediated

1. Acute Rheumatic Fever (ARF): via molecular mimicry to antibodies against M protein —> myocarditis, arthritis, fever, chorea, progression to chronic rheumatic heart disease
2. Acute Poststreptococcal Glomerulonephritis (APSGN): Type III hypersensitivity (immune complexes cause kidney damage) —> hematouria, proteinuria, oliguria, hypervolemia

Question 41

Pt is a 45yo M presenting to the ED with fever and symptoms of myocarditis, arthritis, and chorea. PMH is significant for pharyngitis 3 weeks ago.

What is going on? What are your concerns?

Answer 41

Patient had pharyngitis from GAS (Strep. pyogenes) infection, and body produced antibodies against M protein (virulent factor, essential for GAS infection).

These cross reacted with body’s own cells (molecular mimicry), causing acute rheumatic fever (ARF).

Can progress to chronic rheumatic heart disease if left untreated.

[can occur 2-3 weeks after pharyngitis, usually only when initial infection is untreated]

Question 42

Pt is a 17yo F presenting to the ED with hematuria, proteinuria, oliguria, and hypervolemia. PMH is significant for pharyngitis 1 week ago.

What is going on? What type of reaction is this?

Answer 42

Patient had GAS (Strep. pyogenes) infection, which caused Type III hypersensitivity - immune complexes deposited in kidney.

This caused Acute Poststreptococcal Glomerulonephritis (APSGN) —> dark urine, protein in urine, lower urine production, fluid retention

[can occur 1-2 weeks after pharyngitis OR skin infection by GAS]

Question 43

how are we treating GAS (Strep. pyogenes) infection these days?

what if a patient had a skin infection, but you don’t know if it’s strep. or staph.?

Answer 43

GAS are uniformly penicillin sensitive

*note that if a patient has skin infection and you don’t know if it’s staph. or strep., you’d probably start with something anti-staph. since those are penicillin resistance, and this would work on strep. as well. If you know it’s a strep. infection you could go to penicillin right away.

Question 44

describe the epidemiology for Strep. pyogenes (GAS) infection - where it’s found, how it’s transmitted, portal of entry, predominant group affected?

Answer 44

Strep. pyogenes (GAS):
- inhabits throat, nasopharynx, occasionally skin
- transmitted via contact, droplets, food (spreads easily in crowds)
- enters via skin or pharynx
- children are predominant group affected for cutaneous and throat infections (1/3 of all bacterial pharyngitis in children due to GAS)

*note systemic and progressive sequelae possible if untreated

Question 45

which bacteria does this describe?
- normal flora of female reproductive tract
- colonization can be intermittent, transient, or persistent
- leading cause of neonatal sepsis, meningitis, or pneumonia (pregnant women are screened for colonization)
- bacitracin resistant

Answer 45

Group B Streptococci: Strep. agalactiae

beta hemolytic, Gram+ cocci

[note if pregnant woman has positive screen, treat with antibiotic intrapartum]

Question 46

what is the leading cause of neonatal sepsis, meningitis, and pneumonia?

Answer 46

Group B Streptococci (Strep. agalactiae) infection from colonization in mother

remember that Strep. agalactiae is a normal flora of female reproductive tract (Gram+ cocci, beta hemolytic, bacitracin resistant)

Question 47

what are the names of GAS and GBS bacteria and how can you distinguish between them in culture?

Answer 47

GAS (Group A streptococci) = Strep. pyogenes —> bacitracin sensitive

GBS (Group B streptococci) = Strep. agalactiae —> bacitracin resistant

Question 48

This large complex group of bacteria includes S. mitis, S. mutans, S. oralis, S. salivarus, S. sanguis, and S. milleri.

As their names may suggest, they are widespread oral inhabitants (gums and teeth). They are not very invasive but may enter during dental or oral surgery.

Therefore, they may cause dental caries or subacute infective endocarditis.

What is?

Answer 48

Viridans Group Streptococci: basically all alpha hemolytic Streptococci other than S. pneumoniae

“non-Lancefield” group, Gram+ cocci

optochin resistant
(S. pneumoniae is sensitive)

Question 49

contrast endocarditis called by Viridans Group (alpha hemolytic Streptococci) vs Strep. aureus (beta hemolytic Streptococci)

Answer 49

Viridans - causes subacute ineffective endocarditis: slower progression, low virulence, originates in mouth, higher risk for patients with history of heart transplant or prosthetic valve

S. aureus - causes acute endocarditis: large and rapidly growing vegetation, high virulence, originates in skin/nares, can affect healthy or damaged valves

Question 50

how would you categorize Streptococci pneumoniae, and how does it appear under the microscope?

Answer 50

alpha hemolytic Gram+ Streptococci, optochin sensitive, “non-Lancefield” group

appear as Lancet (church window) shaped cells arranged in pairs (diplococci)

Question 51

what is the important virulence factor of streptococci pneuomniae (alpha hemolytic, Gram+ diplococci)?

Answer 51

polysaccharide capsule: antiphagocytic and antigenic, appears glossy on plate culture

heavily encapsulated forms are associated with more severe disease

85+ capsule serotypes

Question 52

where does streptococci pneumoniae infection come from? (alpha hemolytic, Gram+ diplococci)

Answer 52

normal flora in nasopharynx of carriers, infections often endogenous (from yourself)

delicate organism, doesn’t survive well outside of habitat

among susceptible patients includes those who have had splenectomy or with sickle cell disease (functionally asplenic) —> leading cause of Overwhelming Post-Splenectomy Infections (OPSI)

Question 53

what are 4 important clinical manifestations of streptococci pneumoniae infection? (Gram+ diplococci, alpha hemolytic, optochin sensitive)

Answer 53

1. lobar pneumonia (esp. community acquired bacterial pneumonia)
2. otitis media (most frequent ear infection in children)
3. meningitis
4. bacteremia and sepsis (esp. asplenic patients)

Question 54

a bacterial colony shows alpha hemolysis and sensitivity to optochin

what is it

Answer 54

streptococci pneumoniae: Gram+ diplococci

Question 55

intermediate level resistance to penicillin is emerging in strep. pneumoniae

how is this mediated and what are we now using to treat?

Answer 55

resistance mediated by expression of mosaic variants of PBP proteins (target of penicillin)

resistant strains are sensitive to 3rd generation cephalosporins such as cefotaxime or ceftriaxone

Question 56

what are the 2 vaccines available for Strep. pneumoniae?

Answer 56

1. Pneumovax: 23-valent polysaccharide vaccine (PPV) - protects against 23 serotypes, recommended for older adults or high risk individuals (older vaccine)
2. Prevnar 13: pneumococcal conjugate vaccine (polysaccharide conjugated to protein) - more effective because proteins are more immunogenic, protects against 13 serotypes

Question 57

what bacteria does this describe?
- normal GI flora, can grow in bile
- non(gamma)hemolytic, but sometimes alpha-hemolytic
- now called S. gallolyticus
- bacteremia associated with GI malignancy and colon cancer

Answer 57

Streptococci bovis (Group D Streptococci)

aka “non-enterococcal Group D strep”

Question 58

bacteremia caused by ____ is associated with GI malignancy and colon cancer

Answer 58

Streptococci bovis (Group D, gamma hemolytic): normal GI flora, can grow in bile, now called S. gallolyticus

[note it can also be alpha-hemolytic]

Question 59

Enterococci are genetically distinct from Streptococci but have Group ___ antigen

what are the 2 most clinically relevant species?

Answer 59

Enterococci have Group D antigen

1. E. faecalis
2. E. faecium

common inhabitants of GI tract

gamma or alpha hemolytic, possibly beta but infrequent

Question 60

where are enterococcal bacteria found? are they virulent? what kind of diseases do they cause?

Answer 60

enterococcal bacteria: Gram+ cocci, Group D antigen (but distinct from streptococcus)

normal GI flora, not very virulent but persist well on fomites (nosocomial pathogens - multi-drug resistance)

cause opportunistic UTI, intra-abdominal abscesses/biliary infections, can lead to endocarditis or bacteremia/sepsis

Question 61

why is it clinically relevant that enterococci have acquired vancomycin resistance, considering it does not usually infect healthy individuals?

Answer 61

genes encoding vancomycin resistance are present on transposable element - the concern is this gene being transferred to MRSA (methicillin resistant Staph. aureus)

Question 62

what 2 tests are used to identify enterococci? which of these is more specific? (Group D, Gram+ cocci)

Answer 62

1. Bile Esculin Test: can grow in bile and hydrolyze esculin (characteristic of Group D Strep. and Enterococci)
2. growth in NaCl broth: enterococci are salt-resistant (differentiates from S. bovis)

Question 63

You’re trying to identify an unknown bacteria. First, you complete a Bile Esculin Test, which is positive. Then, you try growing the bacteria in a 6.5% NaCl broth, which leads to no growth.

What do you have?

Answer 63

Bile Esculin Test: Group D strep. and enterococci can grow in 40% bile and hydrolyze esculin

however, only enterococci are salt resistant

so what you have is Streptococci bovis

Question 64

T/F: sensitivity testing is needed for treatment of enterococci

explain your answer

Answer 64

TRUE because enterococci is resistant to many drugs

Question 65

Lab results show Gram+ cocci growing in chains, which are catalase negative, beta-hemolytic, and bacitracin sensitive.

what is it

Answer 65

Streptococci pyogenes (GAS - Group A Streptococci)

Question 66

Lab results show catalase negative bacteria which are beta hemolytic and bacitracin resistant.

what is it

Answer 66

Streptococci agalactiae (Group B)

leading cause of neonatal meningitis, pneumonia, and sepsis

Question 67

Lab results show Gram+ diplococci which are catalase negative, alpha hemolytic, optochin and bile sensitive, and positive for Quelling (swelling) reaction in culture

what is it

Answer 67

Streptococci pneumoniae

Question 68

lab results show catalase negative bacteria which are alpha hemolytic and optochin resistant

what is it

Answer 68

viridans group streptococci

cause subacute endocarditis and dental caries

Question 69

lab results show bacteria that grow in both 40% bile and 6.5% NaCl

what is it

Answer 69

Group D enterococci: E. faecalis or E. faecium